Friday, November 18, 2016, 7:29 PM - The Arctic is running a severe fever, global sea ice is at record low levels, and could climate change get even worse than we thought as global temperatures rise? It's What's Up in Climate Change!

Earth running a fever

It's been quite warm at the opposite ends of the planet as of late.

Both the Arctic and the Antarctic have been experiencing elevated temperatures, and in the Arctic, it is like an extreme heatwave, with temperatures roughly 20oC warmer than normal for this time of year.

Credit: Climate Reanalyzer

Credit: Climate Reanalyzer

Suffering sea ice

This heat is having a strong impact on ice growth in the Arctic and is causing a stronger than usual melt of Antarctic sea ice.

All sea ice data from 1979 to Nov 17, 2016. Credit: NSIDC

This year, Arctic sea ice (shown on the left, above) has been suffering, with the lowest winter maximum on record, record low extents through May and the first half of June, the second lowest summer minimum on record, and now this slow growth and record low extents from late October until now.

In the Antarctic (shown right, above), 2016 sea ice extent has been roughly average, thus well below the levels that have been seen over the past several years, until early September, just as it was reaching what should have been its peak during the southern winter. At this point, sea ice extent plummeted, to well below average and has remained so since, and has been at record low extent since the first week of November.

Things may be worse than we first thought...

New research is revealing that Earth's climate sensitivity may actually get worse as global temperatures continue to rise.

Equilibrium climate sensitivity is the measure of just how much global temperatures will rise due to a doubling of carbon dioxide concentrations in the atmosphere. Pre-industrial carbon dioxide concentrations were roughly 280 parts per million in the atmosphere, so climate scientists have been trying to find out how much warming we can expect if the concentration was increased to 560 ppm due to the continued use of fossil fuels.

The hope has been that climate sensitivity is low - perhaps just a degree or two Celsius, at the most. Reality, however, has been a bit more harsh, pointing more towards a climate sensitivity of between 2oC and 7oC, with a rise of around 3oC being the most likely outcome.

It should be noted that even a 3oC rise in global temperatures is expected to result in disastrous weather impacts, which is why global policymakers have first focused on keeping warming to under 2oC, and more recently - with the Paris Agreement - began to look at keeping warming to less than 1.5oC.

This new study, however, led by Tobias Friedrich from the University of Hawaii and published last week in the open access, peer-reviewed journal Science Advances, is showing that our situation may be far, far worse.

Using Earth's history to guide them, Friedrich's team combined data from ice cores and ocean sediment cores with computer models of temperatures, to cover the past 784,000 years - a time frame spanning 8 different different glacial cycles.

To this, they added CO2 concentration data from air bubbles trapped in the cores, and all other factors known to influence climate (Earth's tilt, precession and orbital eccentricity), to come up with a complete picture for temperature versus carbon dioxide in the past.

Earth's global mean temperature reconstructed for the past 784,000 years, with a projection extended out to 2100 based on increasing climate sensitivity to greenhouse gases due to rising temperatures. Credit: Friedrich, et al. (2016)

Based on this, Friedrich and his team calculated that, as Earth's atmosphere continues to warm, the climate will become more sensitive to additional CO2, and with a "business as usual" approach to greenhouse gas emissions, this will result in an overall rise in temperatures of around 5.9oC by the end of this century!

Closeup of temperatures from 1850, the start of the modern temperature record, out to 2100, based on this study. The red line and uncertainty denotes the range of temperatures from the CMIP5 model, used by the IPCC. The blue line and uncertainty is the temperature projection based on this paleoclimate study. Credit: Friedrich, et al. (2016)

Dr. Michael E. Mann, director of the Earth System Science Center at Penn State University, told the UK news site The Independent in an email that this new study "does indeed provide support for the notion that a Donald Trump presidency could be game over for the climate."

"By 'game over for the climate'," Mann explained, "I mean game over for stabilizing warming below dangerous (ie greater than 2oC) levels."

"If Trump makes good on his promises," he added, "and the US pulls out of the Paris [climate] treaty, it is difficult to see a path forward to keeping warming below those levels."

The only way out

"Our results imply that the Earth’s sensitivity to variations in atmospheric CO2 increases as the climate warms," Friedrich said in a University of Hawaii press release. "Currently, our planet is in a warm phase - an interglacial period - and the associated increased climate sensitivity needs to be taken into account for future projections of warming induced by human activities."

"The only way out is to reduce greenhouse gas emissions as soon as possible," Friedrich said.